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CN-121989627-A - Control method and processor for equipment in vehicle

CN121989627ACN 121989627 ACN121989627 ACN 121989627ACN-121989627-A

Abstract

The application discloses a control method and a processor of equipment in a vehicle. The method comprises the steps of obtaining environment information of an external environment where a vehicle is located and parameter information of each of a plurality of devices of the vehicle in the running process of the vehicle under the external environment, wherein the environment information is used for representing the state of the external environment, the parameter information is used for representing parameters of the devices in the running state or the standby state, generating indication signals of target devices in the plurality of devices based on the environment information and the parameter information, wherein the influence degree of the target devices on the external environment is higher than that of devices except the target devices in the plurality of devices, responding to the indication signals to indicate that the influence degree of the target devices on the external environment is higher than an influence degree threshold, and controlling the target devices to work based on the indication signals and a circulation mode where the target devices are located. The application solves the technical problem of short service life of equipment in a vehicle.

Inventors

  • FU ZHONG
  • WANG JIANYU
  • ZHAO MUQING
  • XU ZHE
  • LIU JUANJUAN
  • MA TIAN

Assignees

  • 中国第一汽车股份有限公司

Dates

Publication Date
20260508
Application Date
20260324

Claims (10)

  1. 1. A control method of an apparatus in a vehicle, characterized by comprising: Acquiring environment information of an external environment where the vehicle is located and parameter information of each of a plurality of devices of the vehicle in the running process of the vehicle in the external environment, wherein the environment information is used for representing the state of the external environment, and the parameter information is used for representing parameters of the devices in the running state or the standby state; Generating indication signals of target equipment in a plurality of equipment based on the environment information and the parameter information, wherein the influence degree of the target equipment by the external environment is higher than that of equipment except the target equipment in the plurality of equipment; And responding to the indication signal to indicate that the influence degree of the target equipment by the external environment is higher than an influence degree threshold, and controlling the target equipment to work based on the indication signal and a circulation mode of the target equipment, wherein the circulation mode is used for indicating a mode of controlling the internal environment of the vehicle by the target equipment.
  2. 2. The method of claim 1, wherein the plurality of devices includes a cleaning device and a temperature control device, the parameter information of each of the plurality of devices includes first parameter information indicating a parameter of the cleaning device in the operating state or the standby state and second parameter information indicating a parameter of the temperature control device in the operating state or the standby state, and wherein generating the indication signal of the target device of the plurality of devices based on the environmental information and the parameter information includes: Identifying the first parameter information to obtain a first identification result, and identifying the second parameter information to obtain a second identification result, wherein the first identification result is used for indicating the duration of the cleaning equipment on the current cleaning gear, the second identification result is used for indicating the working mode of the temperature control equipment, the working state of a blower in the temperature control equipment and the rotating speed of a compressor in the temperature control equipment; and generating the indication signal based on the first identification result and/or the second identification result.
  3. 3. The method of claim 2, wherein the indication signal comprises a first indication signal for indicating that the target device switches or maintains the round robin mode if the round robin mode is an outer circulation mode, generating the indication signal based on the first and second identification results comprises: Responding to the current cleaning gear as a first preset cleaning gear, and generating the first indication signal based on a first duration which is continuous in the first preset cleaning gear and corresponds to the first identification result and the second identification result; And responding to the current cleaning gear as a second preset cleaning gear, and generating the first indication signal based on a second duration which is continuous in the second preset cleaning gear and corresponds to the first identification result and the second identification result, wherein the second preset cleaning gear is larger than the first preset cleaning gear.
  4. 4. The method of claim 3, wherein the first indication signal includes a first type indication signal and a second type indication signal, the first type indication signal is used for indicating that the target device switches the circulation mode when the circulation mode is the outer circulation mode, the second type indication signal is used for indicating that the target device keeps the circulation mode when the circulation mode is the outer circulation mode, wherein responding to the current cleaning gear is a first preset cleaning gear, generating a first indication signal based on a first duration which is continuous in the first preset cleaning gear and corresponds to the first identification result, and the second identification result includes: Responding to the current cleaning gear as the first preset cleaning gear, wherein the first time length is greater than or equal to a first preset time length, the working mode corresponding to the second identification result is a preset working mode, the working state corresponding to the second identification result is a first preset working state, and the rotating speed corresponding to the second identification result is greater than a rotating speed threshold value, so that the first type indication signal is generated; And responding to the current cleaning gear as the first preset cleaning gear, and meeting any part of the conditions that the first time length is greater than or equal to the first preset time length, the working mode corresponding to the second identification result is the preset working mode, the working state corresponding to the second identification result is the first preset working state, and the rotating speed corresponding to the second identification result is greater than the rotating speed threshold value, so as to generate the second type indication signal.
  5. 5. The method of claim 4, wherein generating the first indication signal based on a second duration corresponding to the first identification result and continuing in a second preset cleaning gear in response to the current cleaning gear being the second preset cleaning gear, and the second identification result comprises: Responding to the current cleaning gear as the second preset cleaning gear, and meeting the following conditions that the second time period is longer than or equal to a second preset time period, the working mode corresponding to the second identification result is the preset working mode, the working state corresponding to the second identification result is a first preset working state, the rotating speed corresponding to the second identification result is greater than the rotating speed threshold value, and the first type indication signal is generated, wherein the second preset time period is smaller than the first preset time period; And responding to the current cleaning gear as the second preset cleaning gear, and meeting any part of the conditions that the second time length is longer than or equal to the second preset time length, the working mode corresponding to the second identification result is the preset working mode, the working state corresponding to the second identification result is the first preset working state, and the rotating speed corresponding to the second identification result is greater than the rotating speed threshold value, and generating the second type indication signal.
  6. 6. The method of claim 3, wherein the indication signal comprises a second indication signal for instructing the target device to switch or maintain the round robin mode if the round robin mode is an inner loop mode, generating the indication signal based on the first identification and the second identification comprises: and responding to the current cleaning gear as a third preset cleaning gear, and generating the second indication signal based on a third duration which is continuous in the third preset cleaning gear and corresponds to the first identification result and the second identification result.
  7. 7. The method of claim 6, wherein the second indication signal includes a third type indication signal and a fourth type indication signal, the third type indication signal is used for indicating that the target device switches the circulation mode when the circulation mode is the internal circulation mode, the fourth type indication signal is used for indicating that the target device keeps the circulation mode when the circulation mode is the internal circulation mode, wherein responding to the current cleaning gear is a third preset cleaning gear, generating a second indication signal based on a third duration which is continuous in the third preset cleaning gear and corresponds to the first identification result, and the second identification result includes: The current cleaning gear is the third preset cleaning gear, any one of the following conditions is met, wherein the third time period is longer than or equal to a third preset time period, the working mode corresponding to the second identification result is different from the preset working mode, the fourth time period of the temperature control equipment, which is continuous in the working mode corresponding to the second identification result, is longer than or equal to a fourth preset time period, the working state corresponding to the second identification result is a second preset working state, the fifth time period of the temperature control equipment, which is continuous in the working state corresponding to the second identification result, is longer than or equal to a fifth preset time period, the rotating speed corresponding to the second identification result is equal to the rotating speed threshold, the sixth time period of the temperature control equipment, which is continuous in the rotating speed corresponding to the second identification result, is longer than or equal to a sixth preset time period, and the third type indication signal is generated; and responding to the condition that the current cleaning gear is the third preset cleaning gear and the condition that the third time length is larger than or equal to the third preset time length, the working mode corresponding to the second identification result is different from the preset working mode, the fourth time length is larger than or equal to the fourth preset time length, the working state corresponding to the second identification result is a second preset working state, the fifth time length is larger than or equal to the fifth preset time length, the rotating speed corresponding to the second identification result is equal to the rotating speed threshold, and the sixth time length is larger than or equal to the sixth preset time length, and the fourth type indication signal is generated.
  8. 8. The method of claim 2, wherein the indication signals include a fifth type indication signal for indicating that the target device switches the cycle mode in an active cleaning gear or an active control mode and a sixth type indication signal for indicating that the target device remains in the cycle mode in the active cleaning gear or the active control mode, wherein generating the indication signal based on the first recognition result or the second recognition result includes: generating the fifth type indication signal in response to the current cleaning gear corresponding to the first identification result being the same as the active cleaning gear and/or the working mode corresponding to the second identification result being the same as the active control mode; And generating the sixth type indication signal in response to the current cleaning gear corresponding to the first identification result being different from the active cleaning gear and the working mode corresponding to the second identification result being different from the active control mode.
  9. 9. The method of claim 2, wherein controlling the operation of the target device based on the indication signal and a cycle mode in which the target device is located comprises: Responding to the indication signal as a first type indication signal, controlling the target equipment to switch to an internal circulation mode and controlling the target equipment to work in the internal circulation mode, wherein the circulation mode is an external circulation mode; controlling the target device to maintain the outer loop mode and controlling the target device to operate in the outer loop mode in response to the indication signal being a second type indication signal and the loop mode being the outer loop mode; Responding to the indication signal being a third type indication signal, wherein the circulation mode is the internal circulation mode, controlling the target equipment to switch to the external circulation mode, and controlling the target equipment to work in the external circulation mode; In response to the indication signal being a fourth type indication signal and the cycle mode being the inner cycle mode, controlling the target device to maintain the inner cycle mode and controlling the target device to operate in the inner cycle mode; Responding to the indication signal as a fifth type indication signal, wherein the circulation mode is the internal circulation mode, controlling the target equipment to switch to the external circulation mode, and controlling the target equipment to work in the external circulation mode; And in response to the indication signal being a sixth type of indication signal, and the cycle mode being the inner cycle mode, controlling the target device to maintain the inner cycle mode, and controlling the target device to operate in the inner cycle mode.
  10. 10. A processor for running a program, wherein the program when run by the processor performs the method of any one of claims 1 to 9.

Description

Control method and processor for equipment in vehicle Technical Field The present application relates to the field of information, and in particular, to a method and a processor for controlling devices in a vehicle. Background Currently, in order to meet the arrangement space of the front cabin of the vehicle, more and more vehicle manufacturers cancel the sheet metal-structured water flow channel in the front cabin of the vehicle, and choose other modes to realize air intake and water discharge of the vehicle. In the related art, most vehicles employ a similar product of an air conditioner air inlet water blocking device, which has advantages of light weight, low cost, and small occupied cabin space. However, because the air inlet cavity of the water blocking device is shorter and smaller, when the vehicle runs in special weather such as heavy rain, rainwater is easily sucked into the vehicle by the blower of the air conditioning box, which can cause dripping in the vehicle or rusting and abnormal sound of water inlet of the blower motor, thereby causing the technical problem of short service life of equipment in the vehicle. Aiming at the technical problem of short service life of equipment in the vehicle, no effective solution is proposed at present. Disclosure of Invention The embodiment of the application provides a control method and a processor for equipment in a vehicle, which are used for at least solving the technical problem of short service life of the equipment in the vehicle. According to an aspect of an embodiment of the present application, there is provided a control method of an apparatus in a vehicle. The method comprises the steps of obtaining environment information of an external environment where a vehicle is located and parameter information of each of a plurality of devices of the vehicle in the running process of the vehicle under the external environment, wherein the environment information is used for representing the state of the external environment, the parameter information is used for representing parameters of the devices in the running state or the standby state, generating indication signals of target devices in the plurality of devices based on the environment information and the parameter information, wherein the influence degree of the target devices on the external environment is higher than that of devices except the target devices in the plurality of devices, responding to the indication signals to indicate that the influence degree of the target devices on the external environment is higher than an influence degree threshold, and controlling the target devices to work based on the indication signals and a circulation mode where the target devices are located, wherein the circulation mode is used for representing a mode that the target devices control the internal environment of the vehicle. The method comprises the steps of generating indication signals of target equipment in the equipment based on environment information and parameter information, identifying the first parameter information to obtain a first identification result, identifying the second parameter information to obtain a second identification result, wherein the first identification result is used for indicating the duration of the cleaning equipment in a current cleaning gear, the second identification result is used for indicating the working mode of the temperature control equipment, the working state of a blower in the temperature control equipment and the rotating speed of a compressor in the temperature control equipment, and generating the indication signals based on the first identification result and/or the second identification result. Optionally, the indication signal comprises a first indication signal, wherein the first indication signal is used for indicating that the target equipment switches or keeps the circulation mode under the condition that the circulation mode is an external circulation mode, the indication signal is generated based on a first identification result and a second identification result, the indication signal comprises a first duration which is continuous in the first preset cleaning gear and corresponds to the first identification result and a second identification result, the first indication signal is generated based on the first duration which is continuous in the first preset cleaning gear and corresponds to the second identification result, the first indication signal is generated based on the second duration which is continuous in the second preset cleaning gear and corresponds to the first identification result and the second identification result, and the second preset cleaning gear is larger than the first preset cleaning gear. Optionally, the first indication signal comprises a first type indication signal and a second type indication signal, the first type indication signal is used for indicating that the target device switches the circulation mode whe